CA2145997A1 - Device for transplanting small diameter hair grafts - Google Patents

Abstract

A device for transplanting small diameter hair grafts comprises a hand-held cutting instrument consisting of a body (1) holding the tool, a rotary cylindrical tool (2) and a drive assembly (3) capable of driving the tool in rotation with respect to said body, said tool having a hollow end (6) for cutting a graft. The cylindrical tool is a hollow needle with an axial through bore of the same diameter as the hollow cutting end to which it forms an extension. The device comprises means (8, 14, 38, 39) for taking the graft by sucking it up through the axial bore of the needle.

Description

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WO 9 ~ / 07433 PC ~ r / FR93 / 00955

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Device for transplanting hair grafts from small diameter The present invention relates to a device for Apparatus-Small diameter hair grafts in leather haired, comprising a surgical cutting instrument comprising a rotary cylindrical tool fitted with a cylindrical hollow drilling for cutting grafts at a end.
It finds a particularly important application although that not exclusive in the field of surgical treatment baldness by natural hair transplant, and more particularly in the field of micro-grafting.
The treatment of baldness by hair transplantation, so-called graft technique, consists of transplanting in a same individual, part of the roots of his hair located in the crown (always hairy) towards the bald areas.
Grafts are cylindrical skin fragments obtained by circular cutting of the skin using a surgical cut as defined above.

The skin fragments thus cut on their periphery are then taken one by one using pliers and scissors and then, in a third step, are resettled one by one in respective recipient sites previously prepared.
Known surgical techniques cut grafts of increasingly smaller diameter, of micro-grafts by example, about 1.5 mm in diameter and 6 mm long, so to guarantee a high quality aesthetic result.
Unfortunately, these micro-grafts often remain blocked at the bottom of the drill bit due to their very low diameter, which requires to manually dislodge them at using a micro-clamp.

REPLACEMENT SHEET

W094 / 0743 ~ ~ ~ 5 ~ ~ ~ PCT / FR93 / 0095 Regardless of this drawback, micro-grafts cut must be entered one by one using micro-tweezers, detached from the scalp with scissors, then placed in a preservation solution to avoid their desiccation during preparation of recipient sites in which they are finally placed manually one by one to using micro-pliers.

These tedious and very delicate manipulations risk traumatize the micro-grafts and lengthen considerably operating times.

The present invention aims to eliminate the drawbacks listed above by providing a device and method meeting the requirements better than those previously known practice, in particular by allowing rapid sampling excellent quality micro-grafts and then then relocate immediately or almost immediately after collection, for a low cost, simply and easy to implement.

To this end, the invention essentially provides a device tif for transplanting small hair grafts diameter, including a portable cutting instrument as a tool holder body, a rotary cylindrical tool and a motor assembly capable of driving the tool in rotation by relative to the body, the tool being provided with a hollow end cutting a graft, characterized in that the tool cylindrical is a hollow needle pierced right through an axial bore of the same diameter as the hollow end of cut it extends, and in that the device comprises means for removing the graft by aspiration of said graft through the axial bore of the needle.

In advantageous embodiments, there is further use of one and / or the other of the following provisions:

- the sampling means comprise a collecting pipe ~ flexible, with the same internal diameter or substantially the same SHEET E: ~ REPLACED ~ E ~ vrs ~ 3T

~ 1 ~ S ~ 97

3 internal diameter as the needle bore, means of tight connection of the collecting pipe at the rear end rotary needle, and means for evacuating the bore of the needle and the collecting pipe, said pipe collector being connected to an intermediate storage tank diary of the graft removed;

- The connection means comprise a conduit secured to the body, axially connected on one side with the flexible hose, the rear end of the needle cooperating in rotation and sealingly with the other end of said conduit, said conduit comprising an internal bore of the same diameter internal than the internal diameter of the manifold;

- the needle is removably mounted relative to the body of the cutting instrument;

- the device also includes a portable device implantation of the graft removed, the apparatus comprising a body, the intermediate graft storage tank, a second hollow needle, for reimplantation, pierced right through part of a bore of the same diameter as the bore of the first hollow needle, and means for introducing the graft into the scalp through said second hollow needle, from the intermediate reservoir;

- the graft intermediate storage tank includes a first channel axially connected to the second needle dig;
- the first channel is cylindrical, of the same diameter or substantially the same diameter as the flexible pipe with which it is connected obliquely;

- the first channel is straight and the means to introduce tion of the graft in the scalp include a first piston capable of cooperating with the internal bore of the second needle, arranged to push the graft through the second needle wave;
SHEET ~ E OF REPLA5EMFN ~

9 ~ 4 - the connection o ~ lique has a decreasing slope directed from front to back of the second needle, and between around 10 and around 60;

- The introduction means are pneumatic;

- the means of introduction are manual;

- The apparatus further comprises stop means against the scalp arranged to cause withdrawal of the second needle after insertion and removal of the graft in the leather hairy;

the stop means comprise a second parallel channel to the first channel, and a second clean piston to come and take support on the scalp, the second piston being integral of the first piston.

Many advantages and features of this invention will become apparent during the detailed description which will follow, made with reference to the appended drawings giving to explanatory title but in no way limiting a form of realization according to the invention.

In these drawings:

- Figure 1 is a longitudinal section of the instrument section belonging to the device according to one embodiment of the invention;
- Figure 2 is a vertical longitudinal section of a relocation device, pistol-shaped, according to a embodiment of the invention;

- Figure 3 is a horizontal longitudinal section along line III-III of Figure 2;

- Figure 4 is a front view of the reim-planting of figure 2;
SHEET C ~ EF ~ MPLAC ~ EhkEt '~ Tl W094 / 07433 2 1 ~ PCT / FR93 / 00955 - Figure 5 is a cross section along the line VV
of Figure 2;

- Figure 6 is a cross section along line VI-VI
of Figure 2;

- Figure 7 is a view showing the connections between the surgical cutting instrument and the reimplaning device tation with the control and vacuum device.
In FIG. 1, it can be seen that the surgical cutting instrument cal according to the invention consists of an elongated body 1 of cylindrical shape (the dimensions of which can be approximately 12 cm long and 3 cm in diameter) serving as a room-to-hand, in which is disposed in its axis a hollow metallic needle 2, cylindrical, straight, rigid with very wall thin, very small internal diameter (about 1.5 mm), suitable for being driven in an axial rotary movement by via a motor 3 with hollow drive shaft 4 whose internal diameter is very slightly greater than outside diameter of the needle 2.

Needle 2 is held securely in the hollow shaft

4 by a tightening nut 5 arranged at the front and outside laughing body 1.

The anterior end 6 of the needle 2 protruding a few centimeters, the head of the handpiece has a straight section with a bevelled and sharp circular edge acts as a drilling end at the scalp.
The needle 2 extends at its rear end 7, at the within the handpiece, by a fixed metal needle 8, hollow, straight, cylindrical (collecting needle) arranged in its axis with a diameter slightly greater than the level of the junction with the posterior end of needle 2 which fit into it a few millimeters, hermetically, by through a lip ring or seal 9, tight to the air.
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W094 / 07433 PCT / FR93 / 009 ~
~, ~ 4 ~ 6 The fixed needle ~ 3 is arranged in the central axial bore 10 of a cylindrical body 11 screwed to the rear of the body 1.
It is fixed to the cylindrical body 11 by a nut of clamping 12 arranged at the rear and outside of the body 1.

At the rear end 13 of the needle 8 comes into contact outside the handpiece a plastic hose only flexible 14 (collecting pipe) with the same internal diameter than that of needle 8 and of sufficient length to be connected to the relocation gun.

In FIGS. 2 to 6, it can be seen that the reimplaning device tation consists of a handpiece having the shape of a pistol having a body 15 and a stock 16.
The gun body consists of a hollow cylinder 17 to the interior of which slides a piston 18 according to a movement horizontal translation.

At the anterior end of the cylinder 17 is embedded a fixed member 19 of shape substantially identical to that of piston (reimplantation head), extended forward and the outside by a hollow needle 20 (reimplaning needle about 3 to 4 cm in length).
The reimplantation head 19 is hollowed out along its axis and along its entire length, two parallel channels between them:

- a central longitudinal channel 21 (collecting channel of the graft) or first channel; and - A paracentral longitudinal channel 22 or second channel.

The central channel 21 is rectilinear, cylindrical, similarly diameter than the inner diameter of the reimplaning needle tation 20 with which it extends forward.

~ EUILLE ~ ER ~ MP ~ ACE.r ~ N ~

21 ~ 9 ~

Two small cylindrical channels 23 and 24 straight come sideways into the central channel 21.

The anterior canal 23 (graft arrival canal) likewise diameter that the central channel 21 is touched up in the latter at an angle sufficiently open at the rear, so that that a graft arriving via the anterior lateral canal 23, can easily be positioned in the central channel 21, without be altered.
The posterior lateral channel 24 (suction channel) is connected perpendicularly in the central channel 21.

The anterior lateral channel 23 is connected externally to a vacuum source known per se, by a material pipe flexible plastic 35. -The distance between the mouths of the side channels 23 and 24 in the central channel 21 must be greater than shorter than the length of a graft (about 6 mm).

Within the paracentral channel 22 is arranged an elastic member of the leaf spring type 27, extended at its part anterior by a vertical portion Z8 acting as valve, coming to rest position, tightly obstruct the central channel 21, in front of the orifice 25.

An opening 29 is disposed within the vertical portion 28 of the device 27, so that when the portion vertical 28 is lowered (by a means which we will describe later), this opening 29 can make communicate freely the central channel 21 with the needle 20.

The piston 18 consists of a moving part in the cylinder 17, extended forward by two rigid rods longitudinal straight parallel to each other and likewise length: a central rod 30 and a paracentral rod 31.

REA / IP SHEET ~ ACE1 ~ EI

w094 / 07433 ~ 4 ~ 9 ~ PCT / FR93 / 00955 The central rod 30 (re-implantation rod) of shaped cylindrical is arranged in the axis of the central channel 21 in which it is engaged at its posterior part.

Similarly, the paracentral rod 31 (guide rod) is arranged in the axis of the paracentral channel 22 in which it is engaged at its posterior part.

The diameter and the length of the central rod 30 are such when the piston 18 is mobilized forward in the cylinder 17, it can slide freely and hermetically-along the entire length of the central channel 21 and the guille 20, and that its anterior end 32 can exceed slightly the end 33 of the needle 20, at the end of race.

The distance at rest separating the piston 18 from the head of relocation 19 is such that the central rod 30 is already engaged in the central channel 21 and that its end anterior 32 partially obstruct the orifice abutment 26 of the posterior lateral canal 24.

Likewise, the paracentral rod 31 is arranged so that at rest it is already engaged in the channel paracentral 22 and without action on the leaf spring 27 and that when mobilized forward in parallel and together tement to the central rod 30, its front end 34 lowers the blade 27 and its vertical portion 28 and therefore communicates the central channel 21 with the needle 20 by opening 29.

At the end of the race, the front end 34 of the rod 31 is also designed to act as a stop against the skin. The front mobilization of the piston 18 in the cylinder 17 is manually operated by a lever or trigger 36. The return of the piston 18 behind, in the rest position, is provided by spring action 37.

FEUIL ~ E [) E REMP ~ ACEMENT

W094 / 07433 ~ 4 ~ ~ ~ 7 PCT / FR93 / 00955 -In FIG. 7, it can be seen that the vacuum can be transmitted to will in the relocation gun and in the instrument cutting ment through a control device 38 connected to the vacuum pump 39.

Regarding the surgical cutting instrument according to the invention tion, although an electric motor has been shown as source of motive power for the drill needle it is possible to use a pneumatic motor or a motor empty. The body of the cutting instrument can be made in high density rigid plastic or metal (aluminum).

Regarding the resettlement device, although the mobilization of the piston 18 in the cylinder 17 has been represented by human force exerted on a trigger 36, it is possible, for example, to use a source of pneumatic force.

The body 15 of the relocation gun can advantageously-be made of aluminum. The relocation head 19 can be made of metal (aluminum or stainless steel) or rigid transparent plastic such as methyl methacrylate.
The spring type device 27 can for example be made of metal or rigid plastic. The rods 30 and 31 can be made of steel or plastic high density rigid. The pipes 14 and 35 can by example be made of polyethylene.

Although the re-implantation head 19 and the piston 18 have have been shown in parallelepiped shape in the drawings, it is of course also possible, for example, to design in a cylindrical shape. Likewise, although the channel paracentral 22 in which the rod 31 slides has been shown in square section on the drawings, it is possible to design it in a cylindrical shape. The end 33 of ~ EUILLE l:) E REPLACED ~ E ~ EE ~ 1r WO 94/07433 ~ 59 ~ PC ~ r / FR93 / 00955 the reimplantation needle 20 can be bevelled or straight section.

The device according to the invention operates as follows.

It may require the participation of two operators:

- a sampler holding the surgical cutting instrument;
and - an implanter holding the reimplantation gun.

The surgical cutting instrument is turned on, then that the vacuum is cut.
The drill needle is introduced into the scalp at crown level to a sufficient depth (about 6 mm) to include one to a few roots of hair. The vacuum is then opened via the control device 38, which aims to suck, in a fraction of a second, the skin graft whose dimensions sions are around 1.5 mm in diameter and 6 mm long which goes route respectively inside the needle 2, in the collecting needle 8, the collecting pipe 14, the channel lateral 23 to finish its race in the central channel 21, in abutting against the end 32 of the re-implantation rod tion 30, within the relocation gun. The vacuum is then cut.

The implanter introduces the reimplantation needle 20 into the bottom of the recipient skin orifice, diameter and depth substantially identical to the graft, previously prepared in the bald area.

The implanter then actuates the pistol mobilizing forward piston 18 in cylinder 17. The graft is then pushed forward in the central channel Z1 by the end 32 of the rod 30.

SHEET ~ ER ~ MPLA ~ EI \ ~ ENT

W094 / 07433 2 ~ 4 5 9 ~ ~ PCT / FR93 / 00955 ~ 11 ' In parallel, the paracentral rod 31 lowers the device 27 within channel 22, communicating the graft in front with needle 20 through opening 29. The graft then travels to the end 33 of needle 20.
The end 34 of the paracentral rod 31 located at the same height than the end 32 of the reimplantation rod 30 then coming to abut against the surrounding skin surface the orifice in which the needle 20 is located, will cause the recoil of the reimplantation head 19 and by the same occasion the simultaneous withdrawal of needle 20, which has for consequence of leaving the graft in place in its opening recipient. The operation is then repeated in the same way in the same sequence for each graft.

~ EUILLE DE R ~ MPLACEM ~ NT

Claims (13)

Claims 1.- Device for transplanting hair grafts of small diameter comprising a portable cutting instrument comprising a tool holder body (1), a cylindrical tool rotary (2) and a motor assembly (3) capable of driving said tool in rotation with respect to said body, said tool being provided with a hollow end (6) for cutting a graft, characterized in that the cylindrical tool is a hollow needle pierced right through with an axial bore of same diameter as the hollow end of the cut that it extends, and in that the device comprises means (8,14,38,39) removal of the graft by aspiration of said graft through the axial bore of the needle. 2.- Device according to claim 1, characterized in that that the sampling means include:

a flexible header pipe (14) of the same internal diameter or substantially of the same internal diameter as the bore of the needle, means (8,9) for leaktight connection of said collecting pipe at the rear end (17) of the rotary needle, and means (38,39) for evacuating the bore of the needle and the collector pipe, said collecting pipe being connected to a tank (21) of intermediate storage of the harvested graft. 3.- Device according to claim 2, characterized in that the connection means (8,9) comprise a conduit (8) secured to the body, axially connected on one side (13) with the flexible tube (14), the rear end (7) of the needle cooperating rotatably and sealingly with the other end of said conduit, said conduit comprising a bore internal diameter of the same internal diameter as the internal diameter of the collector pipe. 4.- Device according to any one of the claims above, characterized in that the needle (2) is mounted removably relative to the body of the instrument chopped off. 5.- Device according to any one of the claims above, characterized in that it further comprises a portable device for implanting the removed graft, said apparatus comprising:

a body (15), the intermediate graft storage reservoir (21), a second hollow needle (20), for reimplantation, pierced through a bore of the same diameter as the bore of the first hollow needle, and means for introducing (18,30,36) the graft into the scalp through said second hollow needle, at from the intermediate tank. 6.- Device according to claim 5, characterized in that that the reservoir (21) for intermediate storage of the graft comprises a first channel (21) connected axially to the second hollow needle. 7.- Device according to claim 6, characterized in that that the first channel (21) is cylindrical, of the same diameter or substantially of the same diameter as the flexible pipe (14) with which it is obliquely connected. 8.- Device according to claim 7, characterized in that that the first channel (21) is rectilinear and the means for introducing the graft into the scalp include a first piston (30) capable of cooperating with the internal bore of the second needle, arranged to push said graft to the through the second needle. 9.- Device according to any one of claims 5 to 8, characterized in that the oblique connection (23) has a decreasing slope directed from the front to the back of the second hand, and between about 10° and of the order of 60°. 10.- Device according to any one of claims 5 to 9, characterized in that the introduction means are tires. 11.- Device according to any one of claims 5 to 9, characterized in that the introduction means are manuals. 12.- Device according to any one of claims 5 to 11, characterized in that the apparatus further comprises abutment means (31,34) against the scalp arranged to cause the withdrawal of the second needle (20) after introduction and placement of the graft in the scalp. 13.- Device according to claim 12 depending on the claim 8, characterized in that the abutment means have a second channel (22) parallel to the first channel (21) and a second piston (31) capable of bearing on the scalp, the second piston being secured to the first plunger.